A signal processing system for generating an ultrasonic signal from an audio signal comprises a compressor, operable to compress the audio signal, and an equalization circuit, operable to equalize the audio signal. A modulation circuit is operable to combine the audio signal with a carrier signal to produce at least one modulated carrier signal. A voltage detection and control circuit is operable to: detect a voltage of the modulated carrier signal; compare the detected voltage of the modulated carrier signal to a desired voltage; and cause the voltage of the modulated carrier signal to be adjusted if the compared voltage differs by a predetermined amount from the desired voltage.
Legal claims defining the scope of protection, as filed with the USPTO.
1. A signal processing system for generating an ultrasonic signal from an audio signal, comprising: a compressor, operable to compress the audio signal; an equalization circuit, operable to equalize the audio signal; a modulation circuit, operable to combine the audio signal with a carrier signal to produce at least one modulated carrier signal, the modulated carrier signal being of sufficient intensity so as to demodulate when emitted into a non-linear medium; and a voltage detection and control circuit, operable to: i) detect a voltage of the modulated carrier signal; ii) compare the detected voltage of the modulated carrier signal to a desired voltage; and iii) cause the voltage of the modulated carrier signal to be adjusted if the compared voltage differs by a predetermined amount from the desired voltage.
2. The signal processing system of claim 1 , wherein the compressor, the equalization circuit and the modulation circuit are portions of a digital signal processing (“DSP”) system, and wherein the digital signal processing system is at least partially controllable by the voltage detection and control circuit.
3. The signal processing system of claim 2 , further comprising an analog-to-digital converter (“ADC”) that converts an analog input audio signal to a digital signal for processing by the digital signal processing system.
4. The signal processing system of claim 3 , further comprising a band pass filter, operably disposed after the ADC.
5. The signal processing system of claim 1 , further comprising a distortion compensator, operable to pre-compensate for acoustic distortion produced in an air column in which the audio signal is demodulated.
6. The signal processing system of claim 1 , further comprising an emitter correction circuit, to prevent emitter distortion from degrading performance of the distortion compensator.
7. A signal processing system for generating an ultrasonic signal from an audio signal, comprising: a compressor, operable to compress the audio signal; an equalization circuit, operable to equalize the audio signal; a modulation circuit, operable to combine the audio signal with a carrier signal to produce at least one modulated carrier signal, the modulated carrier signal being of sufficient intensity so as to demodulate when emitted into a non-linear medium; and a frequency detection and control circuit, operable to: i) detect a voltage of the modulated carrier signal; ii) compare the detected voltage of the modulated carrier signal to a desired voltage; and iii) cause the frequency of the modulated carrier signal to be adjusted if the compared voltage differs by a predetermined amount from the desired voltage.
8. The signal processing system of claim 7 , wherein the compressor, the equalization circuit and the modulation circuit are portions of a digital signal processing (“DSP”) system, and wherein the digital signal processing system is at least partially controllable by the frequency detection and control circuit.
9. The signal processing system of claim 8 , further comprising an analog-to-digital converter (“ADC”) that converts an analog input audio signal to a digital signal for processing by the digital signal processing system.
10. The signal processing system of claim 9 , further comprising a band pass filter, operably disposed after the ADC.
11. The signal processing system of claim 7 , further comprising a distortion compensator, operable to pre-compensate for acoustic distortion produced in an air column in which the audio signal is demodulated.
12. The signal processing system of claim 7 , further comprising an emitter correction circuit, to prevent emitter distortion from degrading performance of the distortion compensator.
13. A method of processing an audio signal to be provided to an ultrasonic emitter, the method comprising: compressing an audio signal; equalizing the audio signal; combining the audio signal with a carrier signal to produce at least one modulated carrier signal, the modulated carrier signal being of sufficient intensity so as to demodulate when emitted into a non-linear medium; detecting a voltage of the modulated carrier signal; comparing the detected voltage of the modulated carrier signal to a desired voltage; and causing the voltage of the modulated carrier signal to be adjusted if the compared voltage differs by a predetermined amount from the desired voltage.
14. The method of claim 13 , wherein compression, equalization and combining are performed by a digital signal processing (“DSP”) system, and wherein the digital signal processing system is at least partially controllable by a voltage detection and control circuit.
15. The method of claim 14 , wherein adjusting the voltage of the modulated carrier signal is performed in response to a command from the voltage detection and control circuit.
16. The method of claim 14 , wherein detecting the voltage of the modulated carrier signal is performed after the modulated carrier signal is converted to an analog signal.
17. A method of processing an audio signal to be provided to an ultrasonic emitter, the method comprising: compressing an audio signal; equalizing the audio signal; combining the audio signal with a carrier signal to produce at least one modulated carrier signal, the modulated carrier signal being of sufficient intensity so as to demodulate when emitted into a non-linear medium; detecting an average voltage amplitude of the modulated carrier signal; comparing the detected average voltage amplitude of the modulated carrier signal to a desired reference voltage; and causing the frequency of the modulated carrier signal to be adjusted if the compared voltage differs by a predetermined amount from the desired voltage.
18. The method of claim 17 , wherein compression, equalization and combining are performed by a digital signal processing (“DSP”) system, and wherein the digital signal processing system is at least partially controllable by a voltage detection and control circuit.
19. The method of claim 18 , wherein adjusting the frequency of the modulated carrier signal is performed in response to a command from the voltage detection and control circuit.
20. The method of claim 18 , wherein detecting the voltage of the modulated carrier signal is performed after the modulated carrier signal is converted to an analog signal.
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January 10, 2013
May 19, 2015
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